Carbon-Assisted Catalyst Pre-treatment Enables Straightforward Synthesis of High-Density Carbon Nanotube Forests

NanoProduct Lab Members in Authors

Mostafa Bedewy
Group Leader and Principal Investigator (PI)

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Carbon-Assisted Catalyst Pre-treatment Enables Straightforward Synthesis of High-Density Carbon Nanotube Forests

Nicholas Dee, Jinjing Li, Alvin Orbaek-White, Christine Jacob, Wenbo Shi, Piran Kidambi, Kehang Cui, Dmitri Zakharov, Nina Janković, Mostafa Bedewy, Cécile Chazot, Jennifer Carpena-Núñez, Benji Maruyama, Eric Stach, Desiree Plata, A. John Hart

Carbon

Year
2019

Abstract

Despite extensive academic and commercial development, a comprehensive understanding of the principles necessary for high-yield production of carbon nanotubes (CNTs) is lacking, whether in oriented films, bulk powders, or other forms. In chemical vapor deposition growth of CNT films on substrates, trace contaminants of carbon, such as deposits on the reactor tube walls, are known to cause inconsistency in key production metrics, including CNT density and alignment. In this study, we show that trace exposure of the catalyst to carbon during initial heating of the catalyst film is a critical determinant of CNT yield, and this carbon exposure accelerates catalyst nanoparticle formation viafilm dewetting and increases the probability of CNT nucleation and the resultant density of the CNT population. By controlled exposure of the catalyst to a trace amount of carbon, we show up to a 4-fold increase in bulk mass density for a given forest height, an 8-fold increase in local CNT number density, and a 2-fold increase in the growth lifetime, relative to a reference condition. We discuss potential mechanisms to explain the role of carbon exposure on the probability of CNT nucleation from nanoparticle catalysts, supported by microscopy and gas analysis.


Category:   Journal Publications